#ifndef _RIJNDAEL_H_
#define _RIJNDAEL_H_

//
// File : rijndael.h
// Creation date : Sun Nov 5 2000 03:21:05 CEST
// Author : Szymon Stefanek (stefanek@tin.it)
//
// Another implementation of the Rijndael cipher.
// This is intended to be an easily usable library file.
// This code is public domain.
// Based on the Vincent Rijmen and K.U.Leuven implementation 2.4.
//

//
// Original Copyright notice:
//
//    rijndael-alg-fst.c   v2.4   April '2000
//    rijndael-alg-fst.h
//    rijndael-api-fst.c
//    rijndael-api-fst.h
//
//    Optimised ANSI C code
//
//    authors: v1.0: Antoon Bosselaers
//             v2.0: Vincent Rijmen, K.U.Leuven
//             v2.3: Paulo Barreto
//             v2.4: Vincent Rijmen, K.U.Leuven
//
//    This code is placed in the public domain.
//

//
// This implementation works on 128 , 192 , 256 bit keys
// and on 128 bit blocks
//

//
// Example of usage:
//
//  // Input data
//  unsigned char key[32];                       // The key
//  initializeYour256BitKey();                   // Obviously initialized with sth
//  const unsigned char * plainText = getYourPlainText(); // Your plain text
//  int plainTextLen = strlen(plainText);        // Plain text length
//
//  // Encrypting
//  Rijndael rin;
//  unsigned char output[plainTextLen + 16];
//
//  rin.init(Rijndael::CBC,Rijndael::Encrypt,key,Rijndael::Key32Bytes);
//  // It is a good idea to check the error code
//  int len = rin.padEncrypt(plainText,len,output);
//  if(len >= 0)useYourEncryptedText();
//  else encryptError(len);
//
//  // Decrypting: we can reuse the same object
//  unsigned char output2[len];
//  rin.init(Rijndael::CBC,Rijndael::Decrypt,key,Rijndael::Key32Bytes));
//  len = rin.padDecrypt(output,len,output2);
//  if(len >= 0)useYourDecryptedText();
//  else decryptError(len);
//

#include "stdafx.h"

#define _MAX_KEY_COLUMNS (256 / 32)
#define _MAX_ROUNDS 14
#define MAX_IV_SIZE 16

// We assume that unsigned int is 32 bits long....
// typedef unsigned char  uint8_t;
// typedef unsigned int   uint32_t;
// typedef unsigned short uint16_t;

// Error codes
#define RIJNDAEL_SUCCESS 0
#define RIJNDAEL_UNSUPPORTED_MODE -1
#define RIJNDAEL_UNSUPPORTED_DIRECTION -2
#define RIJNDAEL_UNSUPPORTED_KEY_LENGTH -3
#define RIJNDAEL_BAD_KEY -4
#define RIJNDAEL_NOT_INITIALIZED -5
#define RIJNDAEL_BAD_DIRECTION -6
#define RIJNDAEL_CORRUPTED_DATA -7

class Rijndael
{
public:
    enum Direction
    {
        Encrypt,
        Decrypt
    };
    enum Mode
    {
        ECB,
        CBC,
        CFB1
    };
    enum KeyLength
    {
        Key16Bytes,
        Key24Bytes,
        Key32Bytes
    };
    //
    // Creates a Rijndael cipher object
    // You have to call init() before you can encrypt or decrypt stuff
    //
    Rijndael();
    ~Rijndael();

protected:
    // Internal stuff
    enum State
    {
        Valid,
        Invalid
    };

    State m_state;
    Mode m_mode;
    Direction m_direction;
    uint8_t m_initVector[MAX_IV_SIZE];
    uint32_t m_uRounds;
    uint8_t m_expandedKey[_MAX_ROUNDS + 1][4][4];

public:
    //////////////////////////////////////////////////////////////////////////////////////////
    // API
    //////////////////////////////////////////////////////////////////////////////////////////

    // init(): Initializes the crypt session
    // Returns RIJNDAEL_SUCCESS or an error code
    // mode      : Rijndael::ECB, Rijndael::CBC or Rijndael::CFB1
    //             You have to use the same mode for encrypting and decrypting
    // dir       : Rijndael::Encrypt or Rijndael::Decrypt
    //             A cipher instance works only in one direction
    //             (Well , it could be easily modified to work in both
    //             directions with a single init() call, but it looks
    //             useless to me...anyway , it is a matter of generating
    //             two expanded keys)
    // key       : array of unsigned octets , it can be 16 , 24 or 32 bytes long
    //             this CAN be binary data (it is not expected to be null terminated)
    // keyLen    : Rijndael::Key16Bytes , Rijndael::Key24Bytes or Rijndael::Key32Bytes
    // initVector: initialization vector, you will usually use 0 here
    int init(Mode mode, Direction dir, const uint8_t *key, KeyLength keyLen, uint8_t *initVector = 0);
    // Encrypts the input array (can be binary data)
    // The input array length must be a multiple of 16 bytes, the remaining part
    // is DISCARDED.
    // so it actually encrypts inputLen / 128 blocks of input and puts it in outBuffer
    // Input len is in BITS!
    // outBuffer must be at least inputLen / 8 bytes long.
    // Returns the encrypted buffer length in BITS or an error code < 0 in case of error
    int blockEncrypt(const uint8_t *input, int inputLen, uint8_t *outBuffer);
    // Encrypts the input array (can be binary data)
    // The input array can be any length , it is automatically padded on a 16 byte boundary.
    // Input len is in BYTES!
    // outBuffer must be at least (inputLen + 16) bytes long
    // Returns the encrypted buffer length in BYTES or an error code < 0 in case of error
    int padEncrypt(const uint8_t *input, int inputOctets, uint8_t *outBuffer);
    // Decrypts the input vector
    // Input len is in BITS!
    // outBuffer must be at least inputLen / 8 bytes long
    // Returns the decrypted buffer length in BITS and an error code < 0 in case of error
    int blockDecrypt(const uint8_t *input, int inputLen, uint8_t *outBuffer);
    // Decrypts the input vector
    // Input len is in BYTES!
    // outBuffer must be at least inputLen bytes long
    // Returns the decrypted buffer length in BYTES and an error code < 0 in case of error
    int padDecrypt(const uint8_t *input, int inputOctets, uint8_t *outBuffer);

protected:
    void keySched(uint8_t key[_MAX_KEY_COLUMNS][4]);
    void keyEncToDec();
    void encrypt(const uint8_t a[16], uint8_t b[16]);
    void decrypt(const uint8_t a[16], uint8_t b[16]);
};

#endif // _RIJNDAEL_H_
